Apparatus and method for measuring displacement of a curved surface using dual laser beams

1. An apparatus for measuring displacement of a structure having a curved surface, the apparatus comprising: a support structure having opposing first and second ends; a first laser distance measurement device disposed adjacent the first end of the support structure, the first laser distance measurement device for generating a first laser beam that illuminates the curved surface of the structure, for detecting laser energy reflected from the curved surface of the structure, and for generating a first distance signal based on the detected laser energy; a second laser distance measurement device disposed adjacent the second end of the support structure, the second laser distance measurement device for generating a second laser beam that illuminates the curved surface of the structure, for detecting laser energy reflected from the curved surface of the structure, and for generating a second distance signal based on the detected laser energy; and a computer processor for calculating position values indicating displacement of the structure based on the first and second distance signals, a spacing between the first and second laser beams, and a radius of curvature of the curved surface.

2. The apparatus of claim 1 further comprising a measurement device disposed on the support structure for measuring the spacing between the first and second laser beams.

3. The apparatus of claim 1 further comprising an inclinometer disposed on the support structure for measuring an angle of tilt of the first and second laser beams.

4. The apparatus of claim 1 further comprising a stabilizing base to which the support structure is pivotally attached, thereby providing for tilting of the support structure and the first and second laser beams with respect to the structure having the curved surface.

5. The apparatus of claim 1 wherein the curved surface comprises a cylindrical surface, and wherein the computer processor calculates the position values according to: x = R 2 - ( ( d 2 - d 1 ) 2 + S 2 2 ) 2 × d 2 - d 1 ( d 2 - d 1 ) 2 + S 2 y = R 2 - ( S 2 - x ) 2 - R 2 - ( S 2 ) 2 + d 2 - d 2 ⁢ ⁢ INIT , where x is an x-position of the structure having the cylindrical surface, y is a y-position of the structure having the cylindrical surface, S is the spacing between the first and second laser beams, d 1 is a distance indicated by the first distance signal, d 2 is a distance indicated by the second distance signal, d 2INIT is an initial distance indicated by the second distance signal when the cylindrical surface is in an initial position, and R is the radius of curvature of the cylindrical surface.

6. The apparatus of claim 1 wherein the support structure and the first and second laser distance measurement devices are disposed within a portable handheld housing.

7. An apparatus for measuring displacement of a structure having a curved surface, the apparatus comprising: a support structure having opposing first and second ends; a first laser distance measurement device disposed adjacent the first end of the support structure, the first laser distance measurement device for generating a first laser beam that illuminates the curved surface of the structure, for detecting laser energy reflected from the curved surface of the structure, and for generating a first distance signal based on the detected laser energy; a second laser distance measurement device disposed adjacent the second end of the support structure, the second laser distance measurement device for generating a second laser beam that illuminates the curved surface of the structure, for detecting laser energy reflected from the curved surface of the structure, and for generating a second distance signal based on the detected laser energy; a measurement device disposed on the support structure for measuring a spacing between the first and second laser beams; a stabilizing base to which the support structure is pivotally attached to allow tilting of the support structure and the first and second laser beams with respect to the structure having the curved surface; an inclinometer disposed on the support structure for measuring an angle of tilt of the first and second laser beams; and a computer processor for calculating position values indicating displacement of the structure based on the first and second distance signals, a spacing between the first and second laser beams, a radius of curvature of the curved surface, and the angle of tilt of the first and second laser beams.

8. The apparatus of claim 7 wherein the support structure, the first and second laser distance measurement devices, the measurement device for measuring the spacing between the first and second laser beams, and the inclinometer are disposed within a portable handheld housing.

9. A method for measuring displacement of a structure having a curved surface, the method comprising: (a) generating first and second laser beams that illuminate the curved surface of the structure, the first and second laser beams being substantially parallel to each other; (b) detecting laser energy reflected from the curved surface of the structure; (c) generating a first distance signal based on the detected laser energy, where the first distance signal is indicative of a first distance to a first portion of the curved surface; (d) generating a second distance signal based on the detected laser energy, where the second distance signal is indicative of a second distance to a second portion of the curved surface; (e) determining a spacing between the first and second laser beams; (f) calculating data values indicating a characteristic of the movement of the structure based on the first and second distance signals, the spacing between the first and second laser beams, and a radius of curvature of the curved surface; and (g) displaying the data values on a display device to provide information regarding the movement of the structure.

10. The method of claim 9 further comprising measuring an angle of tilt of the first and second laser beams, wherein step (f) comprises calculating data values indicating a characteristic of the movement of the structure based on the first and second distance signals, the spacing between the first and second laser beams, the radius of curvature of the curved surface, and the angle of tilt of the first and second laser beams.

11. The method of claim 10 wherein the curved surface comprises a cylindrical surface, and the calculating of step (f) is performed according to: x = R 2 - ( ( d 2 - d 1 ) 2 + S 2 2 ) 2 × d 2 - d 1 ( d 2 - d 1 ) 2 + S 2 y = R 2 - ( S 2 - x ) 2 - R 2 - ( S 2 ) 2 + d 2 - d 2 ⁢ ⁢ INIT , where x is an x-position of the structure having the cylindrical surface, y is a y-position of the structure having the cylindrical surface, S is the spacing between the first and second laser beams, d 1 is the first distance, d 2 is the second distance, d 2INIT is an initial value of the second distance when the cylindrical surface is in an initial position, and R is the radius of curvature of the cylindrical surface.

12. The method of claim 9 further comprising the step of performing comparative analysis of the data values over time to correlate the movement of the structure to fatigue and stresses in the structure.

13. An apparatus for measuring displacement of a structure having a curved surface, the apparatus comprising: means for generating first and second laser beams that illuminate the curved surface of the structure, the first and second laser beams being substantially parallel to each other; means for detecting laser energy reflected from the curved surface of the structure; means for generating a first distance signal based on the detected laser energy, where the first distance signal is indicative of a first distance to a first portion of the curved surface: means for generating a second distance signal based on the detected laser energy, where the second distance signal is indicative of a second distance to a second portion of the curved surface; means for determining a spacing between the first and second laser beams; means for calculating data values indicating a characteristic of the movement of the structure based on the first and second distance signals, the spacing between the first and second laser beams, and a radius of curvature of the curved surface; and means for displaying the data values to provide information regarding the movement of the structure.